Cdc25 Mitotic Inducer Targeted by Chk1 DNA Damage Checkpoint Kinase

Furnari, Beth; Rhind, Nick; Russell, Paul

doi:10.1126/science.277.5331.1495

Cited by 505 publications

(391 citation statements)

References 24 publications

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“…Localization of Cdc25 is determined by the 14-3-3 protein (Conklin et al, 1995;Furnari et al, 1997;Peng et al, 1997;Dalal et al, 1999;Kumagai and Dunphy, 1999;Giles et al, 2003;Uchida et al, 2004) that binds the phosphatase and prevents its transport into the nucleus (Zeng and Piwnica-Worms, 1999;Davezac et al, 2000;Graves et al, 2001;Giles et al, 2003). The 14-3-3 family of proteins consists of small, acidic, highly conserved proteins that are present in all eukaryotic cells from yeast to mammals (Hermeking and Benzinger, 2006).…”

Section: Discussionmentioning

confidence: 99%

Protein kinase a modulates Cdc25B activity during meiotic resumption of mouse oocytes

Zhang

et al. 2008

Developmental Dynamics

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Protein kinase A (PKA) play a critical role in maintaining the meiotic arrest. However, the steps downstream of PKA remain largely unknown. In this study, we investigated the regulation of meiotic resumption by PKA/Cdc25B pathway in mouse oocytes. Injection of mRNA coding for Cdc25b-S321A had a more potent maturation-inducing ability than Cdc25b-WT. When co-injected with PKA inhibitor, Cdc25B-WT had similar activities with Cdc25B-S321A. Meanwhile, the phosphorylation of Cdc25B-S321 was detected in germinal vesicle (GV) oocytes by Western blotting with a phospho-Ser321-specific antibody and the band disappeared when oocytes reenter into the meiotic cell cycle. Furthermore, Cdc25B-WT translocated to the nucleus shortly before GV breakdown (GVBD), whereas phosphorylated Cdc25B-S321 expressed exclusively in the cytoplasm and the signal could not be detected in GVBD oocytes. Taken together, these data indicate that Cdc25B-Serine321 is the potential PKA target and Cdc25B subcellular localization determines its function during the process of maintaining GV arrest in mouse oocytes. Developmental Dynamics 237: 3777-3786, 2008.

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Section: Discussionmentioning

confidence: 99%

Protein kinase a modulates Cdc25B activity during meiotic resumption of mouse oocytes

Zhang

et al. 2008

Developmental Dynamics

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“…In S. pombe several mutants have been described that are unable to arrest the cell cycle in response to DNA damage at the G2 checkpoint (Weinert and Hartwell, 1990;AlKhodairy et al, 1994;Ford et al, 1994). One of these genes, chk1, encodes a protein kinase that appears to function downstream of all other checkpoint genes to elicit a cell cycle arrest via cdc25 and wee1 to maintain tyrosine phosphorylation of p34 cdc2 (O'Connell et al, 1997;Rhind et al, 1997;Furnari et al, 1997;Sanchez et al, 1997). Irradiation of cells leads to phosphorylation of chk1 itself, and this response requires all of the upstream checkpoint components, including rad3 (Walworth and Bernards, 1996).…”

Section: Discussionmentioning

confidence: 99%

Chk1 complements the G2/M checkpoint defect and radiosensitivity of ataxia-telangiectasia cells

et al. 1999

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Cells from patients with the human genetic disorder ataxia-telangiectasia (A-T) are defective in the activation of cell cycle checkpoints in response to ionizing radiation damage. In order to understand the role of ATM in checkpoint control we investigated whether Schizosaccaromyces pombe chk1, a protein kinase implicated in controlling the G2 DNA damage checkpoint, might alter the radiosensitive phenotype in A-T cells. The ®ssion yeast chk1 gene was cloned into an EBV-based vector under the control of a metallothionein promoter and transfected into A-T lymphoblastoid cells. Induction of chk1 enhanced the survival of an A-T cell line in response to radiation exposure as determined by cell viability and reduction of radiation-induced chromosome aberrations. This can be accounted for at least in part by the restoration of the G2 checkpoint to chk1 expressing cells. There was no evidence that chk1 expression corrected either the G1/S checkpoint or radioresistant DNA synthesis in S phase in these cells. These results suggest that chk1 when overexpressed acts downstream from ATM to restore the G2 checkpoint in these cells and correct the radiosensitive phenotype. These data allow us to dissociate individual checkpoint events and relate them to the radiosensitive phenotype in A-T cells.

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“…The checkpoint kinase regulates the activation of downstream Cdc25 phosphatases especially Cdc25A and Cdc25B which remove phosphates from inhibitory tyrosine and threonine residues of cyclin-dependant kinases (CDKs) are essential for cell cycle progression (Furnari et al, 1997;Sanchez et al, 1997). Afterward, the activated cyclin-CDK complex finally contributes cell cycle to further progress (Xiao et al, 2003) (Fig.…”

Section: The Mechanism Of Chk1 In Cell Cycle Checkpointmentioning

confidence: 99%

Differential response of normal and malignant urothelial cells to CHK1 and ATM inhibitors

2014

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Cdc25 Mitotic Inducer Targeted by Chk1 DNA Damage Checkpoint Kinase

Cited by 505 publications

References 24 publications

Protein kinase a modulates Cdc25B activity during meiotic resumption of mouse oocytes

Protein kinase a modulates Cdc25B activity during meiotic resumption of mouse oocytes

Chk1 complements the G2/M checkpoint defect and radiosensitivity of ataxia-telangiectasia cells

Differential response of normal and malignant urothelial cells to CHK1 and ATM inhibitors

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